CN109525820B - Double-camera video acquisition device and material operation trolley - Google Patents

Abstract

The application discloses a double-camera video acquisition device and a material operation trolley, relates to the technical field of material operation trolleys, and aims to solve the technical problem that the rotation angle of a rotating shaft is smaller than 360 degrees due to the existing limiting mechanism. The video acquisition device of the application comprises: elevating system who is connected with second video acquisition mechanism, elevating system are connected with first drive mechanism, and first drive mechanism includes: the first driving device is connected with a first rotating disc, the first rotating disc is connected with a first driven disc through a first transmission belt, and the first driven disc is connected with a first video acquisition mechanism; the first rotating disc is provided with a first limiting piece, and the first limiting piece can rotate together with the first rotating disc; the first transmission mechanism further includes: the mounting seat is provided with a second limiting piece matched with the first limiting piece, the second limiting piece can move in a certain range, and the limiting positions of the second limiting piece are a first position and a second position respectively.

Description

Double-camera video acquisition device and material operation trolley

Technical Field

The application relates to the technical field of material operation trolleys, in particular to a double-camera video acquisition device and a material operation trolley.

Background

The inventor finds that in the field of industrial detection, some limiting mechanisms of rotating shafts are generally provided with dead stop points or plane groove mechanisms, and the dead stop points influence rotation, so that the rotation angle is smaller than 360 degrees; the planar slot mechanism has motion limitation, is not applicable to some special occasions, and can cause the increase of manufacturing cost if being used strongly.

Therefore, how to provide a dual-camera video acquisition device and a material operation trolley, which can ensure that the rotation angle of the rotating shaft reaches 360 degrees, is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The application aims to provide a double-camera video acquisition device and a material operation trolley, which are used for solving the technical problem that the rotation angle of a rotating shaft is smaller than 360 degrees due to the existing limiting mechanism.

The application provides a double-camera video acquisition device, which comprises: the elevating system who is connected with second video acquisition mechanism, elevating system is connected with first drive mechanism, first drive mechanism includes: the first driving device is connected with the first rotating disc and drives the first rotating disc to rotate; the first rotating disc is connected with a first driven disc through a first transmission belt, and the first driven disc is connected with a first video acquisition mechanism; the first rotating disc is provided with a first limiting piece, and the first limiting piece can rotate together with the first rotating disc; the first transmission mechanism further includes: the mounting seat is provided with a second limiting piece matched with the first limiting piece, the second limiting piece can move in a certain range, and the limiting positions of the second limiting piece in movement are a first position and a second position respectively; when the first rotating disc is in an initial state, the first limiting piece is contacted with one side of the second limiting piece, so that the second limiting piece is positioned at the first position; after the first rotating disc rotates by a preset angle, the first limiting piece is contacted with the other side of the second limiting piece, so that the second limiting piece is positioned at the second position.

In practical application, the lifting mechanism comprises a vertical mounting frame, lifting driving equipment, a sliding rail and a sliding block; the lifting driving device is arranged at the top of the vertical installation frame and drives the sliding block to lift along the sliding rail.

The lifting driving device is a lifting driving motor, and the lifting driving motor drives the sliding block to lift along the sliding rail through a screw rod transmission structure; the lifting driving motor is fixed at the top of the vertical mounting frame, the output shaft end of the lifting driving motor is fixedly connected with a screw rod of the screw rod transmission structure, the screw rod is rotationally connected with the vertical mounting frame, and the screw rod nut is connected with the sliding block through a lifting connecting piece; the sliding rail is fixedly connected with the vertical installation frame, and the sliding block can slide along the sliding rail.

Specifically, the screw rod transmission structure, the sliding rail and the sliding block are all positioned on one side of the vertical mounting frame; a side plate and an L-shaped fixed plate are arranged on the other side of the vertical mounting frame, and a plurality of lightening holes are formed in the side plate; the L-shaped fixing plate, the side plates and the vertical mounting frame form a groove body for placing a battery, the battery is located in the groove body, and the battery is fixed on the vertical mounting frame.

Further, the second video capture mechanism includes: the device comprises a caliper plate, an assembly plate and a video acquisition head, wherein the caliper plate is fixedly connected with the vertical installation frame, one end of the assembly plate is rotationally connected with the caliper plate, and the video acquisition head is installed at the other end of the assembly plate.

Further, an arc groove is formed in the plate surface of the caliper plate, and scales are arranged at the edge of the arc groove; the middle part of the assembly plate is provided with a protruding shaft, and the protruding shaft part is positioned in the arc-shaped groove and can slide along the arc-shaped groove.

Still further, the first transmission mechanism further includes: the connecting plate is connected with the sliding block, and the first driving equipment is arranged on the connecting plate.

Still further, the sliding block comprises a rectangular plate and a cross-shaped protruding block arranged at one side of the rectangular plate; the rectangular plate is matched with the sliding rail, and the cross-shaped protruding block is connected with the connecting plate of the first transmission mechanism.

During practical application, the mount pad includes: the mounting seat comprises a mounting seat body, wherein first bosses and second bosses are arranged on the mounting seat body at intervals, and the second limiting piece is arranged between the first bosses and the second bosses.

The first boss is provided with a first inclined surface adjacent to one side of the first limiting piece, and the second boss is provided with a second inclined surface adjacent to one side of the first limiting piece.

Specifically, the second limiting piece adopts a sector structure, and two radius walls of the sector structure are two side walls of the second limiting piece respectively.

Further, two side walls of the second limiting piece are respectively provided with an elastic layer.

Further, the elastic layer adopts a high-strength adhesive layer.

Still further, the first stopper includes: the assembly body and set up be in the spacing portion of being the strip of assembly body one end, spacing portion be used for with the contact of second locating part.

Still further, the fitting body includes: a first body portion and a second body portion, and an axial length of the first body portion is greater than an axial length of the second body portion; one end of the first body part is provided with the limiting block, and the first body part and the second body part penetrate through the mounting hole along the direction of the vertical axis.

In practical application, the first video acquisition mechanism is connected with the first driven disc of the first transmission mechanism through the second transmission mechanism.

Wherein, the second drive mechanism includes: the first mounting plate is connected with the first driven plate of the first transmission mechanism through a first mounting column; the first mounting plate is provided with second driving equipment, the second driving equipment is connected with a second rotating disc, the second rotating disc is connected with a second driven disc through a second transmission belt, and the second driven disc is connected with the first video acquisition mechanism through a second mounting column.

Specifically, the first mounting plate is provided with a lightening hole.

Further, the first video capture mechanism includes: the video acquisition device comprises a second mounting plate connected with the second mounting column and a video acquisition device connected with the second mounting plate.

Still further, the second mounting plate includes: a plate-like body positioned in the middle, and a shell-like body connected to both ends of the plate-like body; the platy body is connected with the second mounting column of the second transmission mechanism, and the shell body is connected with the video collector.

Still further, the video collector adopts a mobile phone; the shell is internally provided with a sucker which is used for adsorbing the mobile phone.

Still further, the sucking disc includes a plurality of, and a plurality of sucking discs are the matrix distribution.

Compared with the prior art, the double-camera video acquisition device has the following advantages:

the application provides a double-camera video acquisition device, which comprises: elevating system who is connected with second video acquisition mechanism, this elevating system is connected with first drive mechanism, and first drive mechanism includes: the first driving device is connected with a first rotating disc, the first rotating disc is connected with a first driven disc through a first transmission belt, and the first driven disc is connected with a first video acquisition mechanism; the first rotating disc is provided with a first limiting piece, and the first limiting piece can rotate together with the first rotating disc; the first transmission mechanism further includes: the mounting seat is provided with a second limiting piece matched with the first limiting piece, the second limiting piece can move in a certain range, and the limiting positions of the second limiting piece in movement are a first position and a second position respectively; when the first rotating disc is in an initial state, the first limiting piece is contacted with one side of the second limiting piece, so that the second limiting piece is in a first position; after the first rotating disc rotates by a preset angle, the first limiting piece is contacted with the other side of the second limiting piece, so that the second limiting piece is positioned at the second position. From analysis, in the dual-camera video acquisition device provided by the application, when the first rotating disc is in an initial state, the first limiting piece is contacted with the first side wall of the second limiting piece, the second limiting piece is in a first position, the first rotating disc drives the first limiting piece to rotate until the first limiting piece is contacted with the second side wall of the second limiting piece, the second limiting piece swings from the first position to the second position, and the first rotating disc rotates by a preset angle (for example, 360 DEG) and is in a maximum stroke state; when the first rotating disc rotates from the maximum travel state to the initial state, the first limiting piece is far away from the second side wall of the second limiting piece, the second limiting piece is reset to the first position from the second position, and when the first rotating disc rotates and drives the first limiting piece to contact with the first side wall of the second limiting piece, the first rotating disc rotates by a preset angle (for example, 360 DEG) and returns to the initial state; the second limiting piece has a floating swing angle, so that the rotation angle of the rotating shaft can be compensated, the rotating shaft can rotate by 360 degrees, meanwhile, the lifting mechanism is provided with a second video acquisition mechanism and can drive the first video acquisition mechanism to move up and down, the acquisition range of the video acquisition mechanism is enlarged, and the acquisition effect of the video acquisition device is improved; and the first transmission mechanism has simple structure and low cost, and is beneficial to production and manufacture.

The application also provides a material operation trolley, which comprises: the dual-camera video acquisition device according to any one of the above, wherein the lifting mechanism of the dual-camera video acquisition device is arranged on a vehicle body of the material operation trolley.

The material operation trolley has the same advantages as the double-camera video acquisition device compared with the prior art, and the description is omitted here.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present application, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a dual-camera video acquisition device according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a caliper plate of a second video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a slider of a lifting mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 4 is a schematic diagram of a partial external structure of a dual-camera video acquisition device according to an embodiment of the present application;

fig. 5 is a schematic diagram of a partial internal structure of a dual-camera video acquisition device according to an embodiment of the present application;

fig. 6 is a schematic diagram of a partial structure of a first transmission mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of an installation seat of a first transmission mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a first limiting part of a first transmission mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a second transmission mechanism and a video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 10 is a schematic diagram of an external structure of a video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application;

fig. 11 is a schematic diagram of an internal structure of a video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

In the figure:

300-lifting mechanism; 301-lifting driving motor; 302-a lead screw transmission structure; 303-a slider; 304-a vertical mounting rack; 306-side plates; 307-L type fixing plate; 3031-rectangular plate; 3032-cross bump;

400-a second video acquisition mechanism; 401-calliper plate; 402-fitting a board; 403-video acquisition head; 404-arc grooves;

500-a first transmission mechanism; 501-a first rotating disc; 502-a first limiting piece; 503-a second limiting piece; 5031-a first sidewall; 5032-a second sidewall; 504-mount; 5041-mount body; 5042-first boss; 5043-a second boss; 50421-first inclined surface; 50431-second inclined surface; 5021-fitting a body; 5022-limiting part; 50211-a first body portion; 50212-a second body portion; 505-a first drive motor; 506-a first drive belt; 507-a first driven disc;

600-a second transmission mechanism; 601-a first mounting plate; 602-a first mounting post; 603-a second drive motor; 604-a second rotating disc; 605-a second belt; 606-a second driven disc; 607-a second mounting post; 608-lightening holes;

700-a first video acquisition mechanism; 701-a second mounting plate; 702-a video collector; 7011-a plate-like body; 7012-shell; 703-suction cups.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the application are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the system or element to be referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

Fig. 1 is a schematic structural diagram of a dual-camera video acquisition device according to an embodiment of the present application; fig. 2 is a schematic structural diagram of a caliper plate of a second video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application; fig. 3 is a schematic structural diagram of a slider of a lifting mechanism in a dual-camera video acquisition device according to an embodiment of the present application; fig. 4 is a schematic diagram of an external structure of a dual-camera video acquisition device according to an embodiment of the present application; fig. 5 is a schematic diagram of an internal structure of a dual-camera video acquisition device according to an embodiment of the present application; fig. 6 is a schematic diagram of a partial structure of a first transmission mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

As shown in fig. 1 to 6, an embodiment of the present application provides a dual-camera video acquisition device, including: the lifting mechanism 300 connected with the second video capturing mechanism 400, the lifting mechanism 300 is connected with a first transmission mechanism 500, and the first transmission mechanism 500 includes: the first driving device is a first driving motor 505, the first driving motor 505 is connected with a first rotating disc 501, the first rotating disc 501 is connected with a first driven disc 507 through a first transmission belt 506, and the first driven disc 507 is connected with a first video acquisition mechanism 700; the first rotating disc 501 is provided with a first limiting piece 502, and the first limiting piece 502 can rotate together with the first rotating disc 501; the first transmission 500 further includes: the installation seat 504, the installation seat 504 is provided with a second limiting piece 503 matched with the first limiting piece 502, and the second limiting piece 503 has a floating swing angle; when the first rotating disc 501 is in an initial state, the first limiting piece 502 is in contact with the first side wall 5031 of the second limiting piece 503, the second limiting piece 503 is in a first position, the first rotating disc 501 drives the first limiting piece 502 to rotate until the first limiting piece 502 is in contact with the second side wall 5032 of the second limiting piece 503, the second limiting piece 503 swings from the first position to the second position, and the first rotating disc 501 rotates by a preset angle and is in a maximum stroke state; when the first rotating disc 501 rotates from the maximum stroke state to the initial state, the first limiting piece 502 is far away from the second side wall 5032 of the second limiting piece 503, the second limiting piece 503 is reset from the second position to the first position, and when the first rotating disc 501 rotates and drives the first limiting piece 502 to contact with the first side wall 5031 of the second limiting piece 503, the first rotating disc 501 rotates by a preset angle and returns to the initial state.

Compared with the prior art, the double-camera video acquisition device provided by the embodiment of the application has the following advantages:

in the dual-camera video acquisition device provided by the embodiment of the application, as shown in fig. 1 to 5, the dual-camera video acquisition device comprises: a lifting mechanism 300 to which the second video capturing mechanism 400 is connected, the lifting mechanism 300 being connected to a first transmission mechanism 500, the first transmission mechanism 500 comprising: the first driving motor 505, the first driving motor 505 is connected with a first rotating disc 501, the first rotating disc 501 is connected with a first driven disc 507 through a first transmission belt 506, and the first driven disc 507 is connected with a first video acquisition mechanism 700; the first rotating disc 501 is provided with a first limiting piece 502, and the first limiting piece 502 can rotate together with the first rotating disc 501; the first transmission 500 further includes: the installation seat 504, the installation seat 504 is provided with a second limiting piece 503 matched with the first limiting piece 502, and the second limiting piece 503 has a floating swing angle; when the first rotating disc 501 is in an initial state, the first limiting piece 502 is in contact with the first side wall 5031 of the second limiting piece 503, the second limiting piece 503 is in a first position, the first rotating disc 501 drives the first limiting piece 502 to rotate until the first limiting piece 502 is in contact with the second side wall 5032 of the second limiting piece 503, the second limiting piece 503 swings from the first position to the second position, and the first rotating disc 501 rotates by a preset angle (for example, 360 DEG) and is in a maximum stroke state; when the first rotating disc 501 rotates from the maximum stroke state to the initial state, the first limiting part 502 is far away from the second side wall 5032 of the second limiting part 503, the second limiting part 503 is reset from the second position to the first position, and when the first rotating disc 501 rotates and drives the first limiting part 502 to contact with the first side wall 5031 of the second limiting part 503, the first rotating disc 501 rotates by a preset angle (for example, 360 degrees) and returns to the initial state. From this analysis, it can be known that in the dual-camera video acquisition device provided by the embodiment of the application, since the second limiting part 503 has a floating swing angle, the rotation angle of the rotating shaft can be compensated, so that the rotating shaft can rotate by 360 degrees, meanwhile, the lifting mechanism 300 is provided with the second video acquisition mechanism 400, and the lifting mechanism 300 can drive the first video acquisition mechanism 700 to move up and down, so that the acquisition range of the video acquisition mechanism is enlarged, and the acquisition effect of the video acquisition device is improved; in addition, the first transmission mechanism 500 has simple structure and low cost, and is beneficial to production and manufacture.

In practical application, as shown in fig. 1, the lifting mechanism 300 may include a vertical mounting frame 304, a lifting driving motor 301, a screw driving structure 302, a sliding rail and a sliding block 303; the lifting driving motor 301 is installed at the top of the vertical installation frame 304, and drives the sliding block 303 to lift along the sliding rail through the lead screw transmission structure 302.

As shown in fig. 1, the lifting driving motor 301 is fixed on the top of the vertical mounting frame 304, the output shaft end is fixedly connected with a screw rod of the screw rod transmission structure 302, the screw rod is rotationally connected with the vertical mounting frame 304, and the screw rod nut is connected with the sliding block 303 through a lifting connecting piece; the slide rail is fixedly connected with the vertical mounting frame 304, and the sliding block 303 can slide along the slide rail.

Specifically, as shown in fig. 1, the screw driving structure 302, the sliding rail and the sliding block 303 may be all located at one side of the vertical mounting frame 304; the other side of the vertical mounting frame 304 can be provided with a side plate 306 and an L-shaped fixing plate 307, and a plurality of lightening holes are formed in the side plate 306; the L-shaped fixing plate 307, the side plate 306 and the vertical mounting frame 304 form a tank body in which the battery is placed, and the battery is fixed on the vertical mounting frame 304.

It should be noted here that the lifting driving device of the lifting mechanism 300 may include the driving lifting motor 301 and the screw transmission structure 302 described above; alternatively, the lift driving device of the lift mechanism 300 may be linearly driven by an electric cylinder.

Further, as shown in fig. 1, the second video capturing mechanism 400 may include: the caliper plate 401, the assembly plate 402 and the video acquisition head 403, the caliper plate 403 is vertically placed and fixedly connected with the vertical mounting frame 304 of the lifting mechanism 300, one end of the assembly plate 402 can be rotationally connected with the caliper plate 401, and the video acquisition head 403 can be installed at the other end of the assembly plate 402.

Further, as shown in fig. 2, an arc-shaped slot 404 may be provided on the board surface of the caliper 401, and scales may be provided on the edge of the arc-shaped slot 404; the middle portion of the mounting plate 402 may be provided with a protruding shaft, and the protruding shaft portion is located in the arc-shaped groove 404 and can slide along the arc-shaped groove 404.

The caliper plate 401 can swing around the mounting position relative to the mounting plate 402, and thus can swing the video capture head 403. The swing angle of the video acquisition head 403 is determined by the cooperation of the arc-shaped groove 404 and the convex shaft, and then the video acquisition head 403 is fixed by a fixing structure so as to keep the acquisition angle. The fixed knot constructs can adopt and screws up the bolt, and the one end of assembly plate 402 can be rotated through the pivot with slide caliper rule plate 401 and be connected, and the tip of pivot can set up and screw up the bolt, screws up for slide caliper rule plate 401.

It should be noted that, the video capturing head 403 may use a camera; of course, other commonly used image acquisition devices besides cameras may be used.

Still further, the first transmission mechanism 500 may further include: a connection plate, which may be connected to the slider 303, is provided with a first driving motor 505.

Still further, as shown in fig. 3, the slider 303 may include a rectangular plate 3031 and a cross bump 3032 disposed at one side of the rectangular plate 3031; the rectangular plate 3031 may be mated with a sliding rail, and the cross bump 3032 may be connected with a connection plate of the first transmission mechanism 500.

Fig. 7 is a schematic structural diagram of an installation seat of a first transmission mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

In practical applications, as shown in fig. 1-7, the mounting base 504 may include: the rectangular body mounting seat body 5041 is provided with a first boss 5042 and a second boss 5043 which are distributed at intervals, and the second limiting piece 503 is arranged between the first boss 5042 and the second boss 5043, so that the floating swing angle of the second limiting piece 503 is limited by the first boss 5042 and the second boss 5043.

In order to facilitate the assembly of the second limiting member 503, as shown in fig. 1-7, a side of the first boss 5042 adjacent to the first limiting member 502 may have a first inclined surface 50421, and a side of the second boss 5043 adjacent to the first limiting member 502 may have a second inclined surface 50431.

Specifically, as shown in fig. 6, the second limiting member 503 may have a sector structure, and two radius walls of the sector structure may be a first side wall 5031 and a second side wall 5032 of the second limiting member 503, respectively.

In addition, the fan-shaped structure and the mounting seat body 5041 may be respectively provided with corresponding assembly holes and connected by a pin shaft, so as to achieve the purpose that the second limiting member 503 can swing between the first boss 5042 and the second boss 5043 of the mounting seat 504.

Further, in order to effectively reduce the impact of the first stopper 502 on the second stopper 503, the first side wall 5031 and the second side wall 5032 of the second stopper 503 may be provided with an elastic layer, respectively.

Furthermore, the elastic layer may be a super adhesive layer. The polyurethane PU elastomer has good strength and small compression deformation; a novel material between plastic and rubber has the rigidity of plastic and the elasticity of rubber.

Fig. 8 is a schematic structural diagram of a first limiting part of a first transmission mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

Still further, as shown in fig. 1-8, the first limiting member 502 may include: the assembly body 5021, and the spacing portion 5022 of setting at the cuboid of this assembly body 5021 one end, and spacing portion 5022 is used for contacting with second locating part 503.

Still further, as shown in fig. 1 to 8, the fitting body 5021 may include: a first body portion 50211 and a second body portion 50212, with the axial length of the first body portion 50211 being greater than the axial length of the second body portion 50212; one end of the first body portion 50211 is provided with a limiting portion 5022, and the first body portion 50211 and the second body portion 50212 may have a mounting hole extending along a vertical axis.

The axis length of first body portion 50211 is greater than the axis length of second body portion 50212, and the one end of first body portion 50211 is equipped with spacing portion 5022, and first body portion 50211 and second body portion 50212 run through along the direction of vertical axis has the mounting hole, not only can be convenient for the assembly of first locating part 502, can effectively avoid the interference between spacing portion 5022 and the first rotating disc 501 of first locating part 502 moreover, is favorable to the spacing portion 5022 of first locating part 502 to contact with second locating part 503 simultaneously.

Fig. 9 is a schematic structural diagram of a second transmission mechanism and a video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

In practical application, as shown in fig. 9, the video capturing mechanism 700 may be connected with the first driven disc 507 of the first transmission mechanism 500 through the second transmission mechanism 600, so as to further enlarge the capturing range of the video capturing mechanism through the second transmission mechanism, and improve the capturing effect of the video capturing device.

As shown in fig. 9, the second transmission mechanism 600 may include: a first mounting plate 601, the first mounting plate 601 being connectable to the first driven plate 507 of the first transmission 500 through a first mounting post 602; and, can be equipped with second driving equipment on the first mounting panel 601, this second driving equipment is second driving motor 603, and second driving motor 603 is connected with second rolling disc 604, and second rolling disc 604 can be connected with second driven disc 606 through second drive belt 605, and second driven disc 606 can be connected with first video acquisition mechanism 700 through second erection column 607.

Specifically, in order to facilitate the rotation of the first video capturing mechanism 700, as shown in fig. 8, a weight reducing hole 608 may be provided on the first mounting plate 601.

Fig. 10 is a schematic diagram of an external structure of a video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

Further, as shown in fig. 10, the first video capturing mechanism 700 may include: a second mounting plate 701 coupled to the second mounting post 607 of the second gear 600, and a video collector 702 coupled to the second mounting plate 701.

Still further, as shown in fig. 10, the second mounting plate 701 may include: a plate-like body 7011 positioned in the middle, and a case-like body 7012 connected to both ends of the plate-like body 7011; in particular assembly, the plate 7011 may be coupled to the second mounting post 607 of the second transmission 600 and the shell 7012 may be coupled to the video collector 702.

Fig. 11 is a schematic diagram of an internal structure of a video acquisition mechanism in a dual-camera video acquisition device according to an embodiment of the present application.

Still further, as shown in fig. 11, the video collector 702 may be a mobile phone; the inside of the shell 7012 may be provided with a suction cup 703, so that the mobile phone is sucked by the suction cup 703, so as to realize the fixed installation of the video collector 702.

Still further, in order to ensure a good suction effect, as shown in fig. 11, the suction cup 703 may include a plurality of suction cups 703, and the plurality of suction cups 703 may preferably be distributed in a matrix.

It should be noted that, in the dual-camera video acquisition device provided by the embodiment of the application, all the rotating discs and the driven discs are synchronous wheels.

The embodiment of the application also provides a material operation trolley, which comprises: the dual-camera video acquisition device according to any one of the above, wherein the first transmission mechanism of the dual-camera video acquisition device is arranged on a car body of the material operation car.

In the double-camera video acquisition device and the material operation trolley provided by the embodiment of the application, the second limiting part 503 has a floating swing angle, so that the rotation angle of the rotating shaft can be compensated, and can be rotated for 360 degrees, the acquisition range of a video acquisition mechanism is further enlarged, and the acquisition effect of the video acquisition device is improved; in addition, the first transmission mechanism 500 has simple structure and low cost, and is beneficial to production and manufacture.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the application.

Claims (10)

1. The utility model provides a two camera video acquisition device which characterized in that includes: a lifting mechanism connected with a second video acquisition mechanism;

the elevating system is connected with first drive mechanism, first drive mechanism includes: the first driving device is connected with the first rotating disc and drives the first rotating disc to rotate; the first rotating disc is connected with a first driven disc through a first transmission belt, and the first driven disc is connected with a first video acquisition mechanism;

the first rotating disc is provided with a first limiting piece, and the first limiting piece can rotate together with the first rotating disc; the first transmission mechanism further includes: the mounting seat is provided with a second limiting piece matched with the first limiting piece; the mount pad includes: the mounting seat body is provided with a first boss and a second boss which are distributed at intervals, and the second limiting piece is arranged between the first boss and the second boss; the first boss is provided with a first inclined surface at one side close to the first limiting piece, and the second boss is provided with a second inclined surface at one side close to the first limiting piece; the second limiting piece can move in a range between the first inclined surface and the second inclined surface, and the limiting positions of the second limiting piece in movement are a first position and a second position respectively;

when the first rotating disc is in an initial state, the first limiting piece is contacted with one side of the second limiting piece, so that the second limiting piece is positioned at the first position; after the first rotating disc rotates by a preset angle, the first limiting piece is contacted with the other side of the second limiting piece, so that the second limiting piece is positioned at the second position.

2. The dual camera video capture device of claim 1, wherein the lifting mechanism comprises a vertical mounting bracket, a lifting drive device, a slide rail, and a slider;

the lifting driving device is arranged at the top of the vertical installation frame and drives the sliding block to lift along the sliding rail.

3. The dual camera video capture device of claim 2, wherein the second video capture mechanism comprises: the device comprises a caliper plate, an assembly plate and a video acquisition head, wherein the caliper plate is fixedly connected with the vertical installation frame, one end of the assembly plate is rotationally connected with the caliper plate, and the video acquisition head is installed at the other end of the assembly plate.

4. The dual camera video acquisition device of claim 3, wherein an arc-shaped groove is arranged on the plate surface of the caliper plate, and scales are arranged on the edge of the arc-shaped groove;

the middle part of the assembly plate is provided with a protruding shaft, and the protruding shaft part is positioned in the arc-shaped groove and can slide along the arc-shaped groove.

5. The dual camera video capture device of claim 2, wherein the first transmission mechanism further comprises: the connecting plate is connected with the sliding block, and the first driving equipment is arranged on the connecting plate.

6. The dual camera video capture device of claim 5, wherein the slider comprises a rectangular plate and a cross bump disposed on one side of the rectangular plate;

the rectangular plate is matched with the sliding rail, and the cross-shaped protruding block is connected with the connecting plate of the first transmission mechanism.

7. The dual camera video capture device of claim 1, wherein the first video capture mechanism is coupled to the first driven disk of the first drive mechanism via a second drive mechanism;

the second transmission mechanism includes: the first mounting plate is connected with the first driven plate of the first transmission mechanism through a first mounting column;

the first mounting plate is provided with second driving equipment, the second driving equipment is connected with a second rotating disc, the second rotating disc is connected with a second driven disc through a second transmission belt, and the second driven disc is connected with the first video acquisition mechanism through a second mounting column.

8. The dual camera video capture device of claim 7, wherein the first video capture mechanism comprises: the second mounting plate is connected with the second mounting column, and the video collector is connected with the second mounting plate;

the second mounting plate includes: a plate-like body positioned in the middle, and a shell-like body connected to both ends of the plate-like body; the platy body is connected with the second mounting column of the second transmission mechanism, and the shell body is connected with the video collector.

9. The dual camera video capture device of claim 8, wherein the video capture device employs a cell phone; the shell is internally provided with a sucker which is used for adsorbing the mobile phone.

10. A material handling trolley, comprising: a dual camera video capture device as claimed in any one of claims 1 to 9 and wherein the lifting mechanism of the dual camera video capture device is provided on the body of the material handling trolley.